A general model to account for enzyme variation in natural populations. V. The SAS-CFF model
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Publication:1141603
DOI10.1016/0040-5809(78)90002-3zbMath0437.92017OpenAlexW2088183545WikidataQ45105163 ScholiaQ45105163MaRDI QIDQ1141603
Publication date: 1978
Published in: Theoretical Population Biology (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/0040-5809(78)90002-3
diffusion approximationpolymorphismgenetic variationstochastic environmentSAS-CFF modelconcave fitness functionenzyme variationstochastic additive scaleSturtevant experimental design
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Cites Work
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- The population structure associated with the Ewens sampling formula
- Towards a theory of the evolution of modifier genes
- Random temporal variation in selection intensities: Case of large population size
- Temporal fluctuations in selection intensities: Case of small population size
- Subdivided populations: a review of the one- and two-locus deterministic theory
- Stochastic selection in large and small populations
- The role of migration in the genetic structure of populations in temporally and spatially varying environments. II: Island models
- Role of very slightly deleterious mutations in molecular evolution and polymorphism
- The effects of stochastic environments on allele frequencies in natural populations
- The sampling theory of selectively neutral alleles
- Markov processes and learning models
- Effect of temporal fluctuation of selection coefficient on gene frequency in a population.
- An ergodic theorem for evolution in a random environment
- The stationary distribution of the infinitely-many neutral alleles diffusion model
- Diffusion approximations to linear stochastic difference equations with stationary coefficients
- Random selective advantages of a gene in a finite population
- SYSTEMS OF FREQUENCY CURVES GENERATED BY METHODS OF TRANSLATION
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